Thin-film design : modulated thickness and other stopband design methods / Bruce E. Perilloux

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Perilloux, Bruce [aut]

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Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: Tutorial texts in optical engineering ; 57Publisher: Bellingham, Wash. <1000 20th St. Bellingham WA 98225-6705 USA> : SPIE, c2002Description: 1 online resource (xvi, 116 p. : ill.)ISBN:

9780819478641
0819445258
9780819445254

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Additional physical formats: 0819445258. | 9780819445254. | Erscheint auch als: No title Druck-AusgabeDDC classification:

621.38152
621.3815/2 21

RVK: RVK: ZN 4150LOC classification:

TA418.9.T45

DOI: DOI: 10.1117/3.453202Online resources:

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Additional physical formats: Also available in print version.Summary: This text presents several new thin-film design methods that can produce multiple stopbands as well as passbands. It is written for thin-film designers and students with advanced knowledge of multilayer, optical thin-film coatings. The text focuses on coatings that have high reflectance performance requirements in more than one spectral wavelength band or regionSummary: Preface -- Definitions -- Chapter 1 Introduction. 1.1 Review of Mathematics for Thin-Film Design. 1.2 Analytical, Discrete-layer, Thin-Film Designs. 1.3 Thin-Film Design Methods. 1.4 Inhomogeneous Coating Designs and Synthesis. 1.5 Summary. 1.6 Exercises. Chapter 1 figures -- Chapter 2 Sinusoidal Thickness Modulated Designs. 2.1 Review of Stopbands and Passbands. 2.2 Sinusoidal Modulation. 2.3 Degenerate Cases of TMDs. 2.4 Sinusoidal Thickness Modulated Designs. 2.5 Determination of All Possible TMD Stopbands. 2.6 Electric Field Analysis of a TMD. 2.7 Reflectance Phase Shift of a TMD. 2.8 Applications. 2.9 Exercises. Chapter 2 figures -- Chapter 3 Discrete Apodization of TMDs. 3.1 Introduction. 3.2 Amplitude Modulation. 3.3 Gaussian Envelope Functions. 3.4 Application. 3.5 Exercises. Chapter 3 figures. Chapter 4 Other Complex TMDs. 4.1 Chirped TMD Modulation. 4.2 Half-modulation TMDs. 4.3 Exercises. Chapter 4 figures -- Chapter 5 Quarter-wave Stack Transformation. 5.1 Stack Transformation Method. 5.2 Quarter-wave Stack Transforms. 5.3 Linear Quarter-wave Stack Transformation Method. 5.4 High-order Harmonic Stopbands of Transformed Quarter-wave Stacks. 5.5 Applications. 5.6 Exercises. Chapter 5 figures -- Appendix A: Useful Equations for Discrete-layer Thin-Film Calculations -- Appendix B: Chebyshev Polynomials of the Second Kind -- Appendix C: FORTRAN90 Source Code for the Determination of All Possible TMD Stopbands -- Appendix D: Stopband Positions for Selected TMDs -- Appendix E: Summary of TMD and LOST Equations -- References -- IndexPPN: PPN: 1018189327Package identifier: Produktsigel: ZDB-50-SPI

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